KR101855402B1 - Connecting coupler for steel reinforcement and connecting method of steel reinforcement using the same - Google Patents

Abstract

The present invention relates to a rebar connecting coupler that can firmly connect two rebars, with no risk of rupture or shear, and a method of connecting the rebars by use of the same. The coupler includes: a hollow threaded pipe, of which an inner peripheral surface is formed with a female threaded portion; a pair of inclined pipes provided at both ends of the threaded pipe in a longitudinal direction, of which an inner diameter is decreased toward the threaded pipe, and an inclined portion of the rebar being brought into contact with an inner peripheral surface of the inclined pipes; and a pair of hollow fitting pipes having a diameter larger than that of the threaded pipe and installed to ends of the inclined pipes. The method of connecting the rebars by use of the same includes: a first step of preparing a rebar connecting coupler; preparing a pair of rebars having a main body of a rod shape having ribs and joints on an outer surface which is fitted into the fitting pipe, an inclined portion extending from an end of the main body and tapered away from main body, and a threaded portion formed on an end of the inclined portion and threadedly fitted to the threaded pipe; and a third step of inserting the pair of rebars into the pair of fitting pipes, respectively, by threadedly engaging the threaded portion with the threaded pipe until the inclined portion of each rebar is pressed against the inner surface of the inclined pipe.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a coupler for reinforcing steel,

The present invention relates to a coupler for connecting a reinforcing bar and a reinforcing bar connecting method using the coupler. More particularly, the present invention relates to a coupler for improving the tension and shear strength of a reinforcing bar connecting portion and a reinforcing bar connecting method using the coupler. will be.

Construction (civil engineering, building, plant) In the field, reinforcing steel is processed and assembled to form a skeleton, and then concrete is laid to construct a concrete structure. Since the reinforcing bars are produced at a certain length (6 m to 12 m) at the factory, the reinforcing bars are often required to be longitudinally connected according to the size of the concrete structure.

In this case, in order for the connected reinforcing bars to withstand the mechanical strength, the reinforcing bars and the reinforcing bars must be firmly connected to each other. Hereinafter, a method of connecting the two reinforcing bars will be described.

FIG. 1 is a side view showing a structure for connecting two reinforcing bars using a binding line, and FIG. 2 is a longitudinal sectional view showing a structure for connecting two reinforcing bars using a coupler.

In order to connect the two reinforcing bars with a binding line, two reinforcing bars 10 are arranged so that the ends of the two reinforcing bars 10 are overlapped with each other by a predetermined length as shown in FIG. 1, The two reinforcing bars are connected by bundling the overlapping portions.

The reinforcing bar connection method is advantageous in that it requires almost no construction equipment and is very simple in operation. However, not only the amount of reinforcing bar is increased by the length of the reinforcing bars 10, but also the adhesive strength And there is a problem that unreinforced concrete may be generated at a portion where the reinforcing bars 10 are overlapped.

Therefore, as shown in FIG. 2, a method of connecting the two reinforcing bars 10 in the longitudinal direction using a separate coupler 30 is mainly used. The coupler 30 has a hollow tube shape and a female screw thread is formed therein. The operator can form a threaded portion 12 having a male thread at the end of the reinforcing bar 10 and then connect the threaded portion 12 to the coupler 30 , The two reinforcing bars 10 can be connected in the longitudinal direction.

If the two reinforcing bars are connected to each other by the coupler 30, it is possible to reduce the waste of the reinforcing bar 10 because the reinforcing bars 10 do not overlap each other, .

However, when two reinforcing bars are connected to the coupler 30 shown in FIG. 2, when tensile force is applied to the two reinforcing bars, the stop of the coupler 30 having a relatively small cross- And a stress is concentrated on a portion where the screw portion 12 starts when the up and down external force is applied to the two reinforcing bars to weaken the shearing force.

In addition, when a clearance is generated between the female screw thread formed on the coupler 20 and the male screw thread formed on the screw thread 12, there is a problem that the structural strength of the clearance occurrence portion remarkably deteriorates.

When the two reinforcing bars 10 are connected to the coupler 20, the threaded portions 12 of the reinforcing bars 10 are inserted into the coupler 20 by the same length to be fastened. It can not be confirmed from the outside whether or not it has been inserted into the coupler 20 as much as possible.

KR 20-0344712 Y1

Disclosure of the Invention The present invention has been proposed in order to solve the above-mentioned problems. It is an object of the present invention to provide a coupler capable of connecting two reinforcing bars in a row so as to firmly connect two reinforcing bars without fear of breakage or shearing, The purpose of the present invention is to provide a method of connecting reinforcing bars.

According to another aspect of the present invention, there is provided a coupler for connecting a reinforcing bar, the coupler having a hollow tube shape and a female screw hole formed on an inner side surface thereof; A pair of inclined tubes provided at both ends in the longitudinal direction of the screw pipe and extending obliquely in a direction in which the inner diameter increases in a direction away from the screw pipe; And a pair of insertion tubes formed in the shape of a hollow tube having an inner diameter larger than that of the screw tube and provided at the ends of the pair of inclined tubes.

A reinforcing bar surrounding the interruption outer surface of the screw pipe is additionally formed, and the reinforcing bar is formed to have a polygonal cross section.

The maximum outer diameter of the reinforcing bar is set equal to the outer diameter of the insertion tube.

A foam injection hole for injecting the expanded foam into the middle portion of the internal space of the screw pipe is formed in the screw pipe.

An adhesive injection hole for injecting an adhesive into both sides of the internal space of the screw pipe in the longitudinal direction is formed in the screw pipe.

And an elastic sheet attached to an inner surface of the inclined pipe.

The reinforcing bar connecting method according to the present invention comprises: a first step of providing a reinforcing bar coupling coupler configured as described above; A rod-shaped main body having a rib and a knurl formed on its outer surface, the rod-shaped main body being insertable into an inner side of the insertion tube in a fitting manner, and a rod-shaped main body formed on a longitudinal end of the main body, A second step of providing a pair of reinforcing bars formed of an inclined part extending obliquely to the inner surface of the inclined part and a threaded part of a standard capable of screwing into the inside of the screw pipe; And a third step of inserting the pair of reinforcing bars into the pair of insertion pipes, respectively, and screwing the screw portions to the screw pipes until the inclined portions of the reinforcing bars are pressed on the inner side surfaces of the inclined pipes.

When the pair of reinforcing bars are coupled to a reinforcing coupling coupler, the ends of the reinforcing bars are spaced apart from each other so that a spacing space is formed inside the reinforcing bars,

A foam injection hole for injecting the expandable foam into the spacing space of the screw pipe is formed in a side wall of the screw pipe,

And injecting the expanded foam into the spaced apart space of the screw tube through the foam injection hole after the screw portion is screwed into the screw tube.

An adhesive injection hole for injecting an adhesive is formed in a side wall of the screw pipe at a portion where the screw thread and the screw thread are screwed together,

And injecting the adhesive through the adhesive injection hole after the screw portion is screwed into the screw hole.

According to the present invention, two reinforcing bars can be firmly connected without fear of breakage or shearing, and two reinforcing bars can be connected in a row so that no concrete filling occurs This is an advantage.

1 is a side view showing a structure for connecting two reinforcing bars using a binding line.
2 is a longitudinal sectional view showing a structure for connecting two reinforcing bars using a coupler.
3 is an exploded view showing a process of coupling a pair of reinforcing bars to a reinforcing connecting coupler according to the present invention.
4 and 5 are perspective views of a reinforcing bar coupling coupler and a reinforcing bar coupled thereto.
6 is a cross-sectional view illustrating a structure in which a pair of reinforcing bars are coupled to a reinforcing connecting coupler according to the present invention.
FIG. 7 shows the reaction force formed in the reinforcing coupler when a pair of reinforcing bars is connected.
8 is a cross-sectional view illustrating a process of coupling a pair of reinforcing bars to a reinforcing bar coupler according to a second embodiment of the present invention.
9 is a cross-sectional view illustrating a process of coupling a pair of reinforcing bars to a reinforcing connecting coupler according to a third embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a reinforcing bar coupler according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 3 is an exploded view showing a process of coupling a pair of reinforcing bars to a reinforcing bar coupling coupler according to the present invention, FIGS. 4 and 5 are perspective views of a reinforcing bar coupling coupler and a reinforcing bar coupled thereto, Sectional view showing a structure in which a pair of reinforcing bars are coupled to a reinforcing connecting coupler according to the present invention.

The reinforcing bar coupling coupler 200 according to the present invention can easily connect the two reinforcing bars 100 in a threaded connection structure and the two reinforcing bars 100 are connected to each other by the tensile strength, So that a phenomenon in which the shearing force is not caused by the shearing force is not generated.

That is, the reinforcing coupling coupler 200 according to the present invention includes a screw pipe 210 having a hollow tube shape and having a female thread 212 formed on an inner side surface thereof, A pair of inclined tubes 220 extending obliquely in a direction of increasing the inner diameter of the tube 210 and a hollow tube having an inner diameter larger than that of the tube 210, And a pair of insertion tubes 230 provided at an end of the inclined tube 220.

The reinforcing bar 100 coupled to the reinforcing coupling coupler 200 is inserted into the screw pipe 210 through one end of the insertion tube 230 and then inserted into the screw pipe 210. In this case, . That is, the reinforcing bar 100 includes a rod-shaped main body 110 having a rib 112 and a rod 114 formed on its outer surface and inserted into the insertion tube 230 in a fitting manner, An inclined portion 130 formed at a longitudinal end of the main body 110 and extending obliquely in a direction of decreasing the outer diameter of the main body 110 in a direction away from the main body 110, And a threaded portion 120 of a screwable size to the inside of the screw pipe 210.

Accordingly, after the rebar 100 and the coupler 200 having the above-described structure are formed, the operator moves the threaded portion 120 of the reinforcing bar 100 through the insertion tube 230 to the threaded pipe 210, The reinforcing bars 100 can be connected to both sides in the longitudinal direction of the coupler 200 by rotating the reinforcing bars 100 as a whole. As described above, in the case of using the reinforcing coupler 200 according to the present invention, it is possible to connect the two reinforcing bars 100 in a row without using a separate tool or a fastening clip, .

6, when the threaded portion 120 of the reinforcing bar 100 is coupled to the threaded pipe 210, the inclined portion 130 of the reinforcing bar 100 is inserted into the inclined pipe 220 of the coupler 200, The outer diameter of the main body 110 is made larger than the inner diameter of the screw pipe 210 so that the inclined portion 130 is strongly pressed against the inner surface of the inclined pipe 220, The threaded portion 120 can no longer be inserted into the screw pipe 210 even if the reinforcing bar 100 is further rotated. Therefore, the operator can judge that the screwing of the screw portion 120 is completed by sensing whether the slope portion 130 is in contact with the inner wall of the slanting tube 220, The advantage is that it can be kept constant.

When the inclined portion 130 and the threaded portion 120 are formed at the end of the main body 110 of the reinforcing bar 100, the inclined portion 130 and the threaded portion 120 have a transverse sectional area A stress is applied to a portion where the screw portion 120 and the slope portion 130 are connected to each other or to a portion where the slope portion 130 and the main body 110 are connected when a lateral external force is applied to the reinforcing bar 100. [ There is a problem that the site is concentrated more easily than other sites.

However, in the reinforcing coupling coupler 200 according to the present invention, not only the threaded portion 120 is drawn into the threaded pipe 210, but also the threaded pipe 210 and the threaded portion 210 up to a part of the main body 110 including the inclined portion 130 The coupler 200 covers the end portion of the main body 110 and the inclined portion 130 and the entire thread portion 120 to reinforce the coupler 200. [ Therefore, when the two reinforcing bars 100 are connected to each other by the reinforcing bar coupling coupler 200 according to the present invention, a portion where the screw portion 120 and the slope portion 130 are connected or a slope portion 130 and the main body 110 are connected It is possible to reduce the phenomenon that the portion is broken by the external force.

6, the ends of the threaded portions 120 of the reinforcing bars 100 are spaced apart from each other by a predetermined distance even if a pair of reinforcing bars 100 are inserted into the coupler 200 as much as possible. There is a fear that the stop of the coupler 200 (more specifically, the vacant portion where the screw portion 120 is not engaged) is sheared when an external force is applied in the transverse direction (up-and-down direction in this embodiment) .

Therefore, it is preferable that the screw pipe 210 is additionally formed with a reinforcing bar 240 surrounding the abutting outer surface. When the reinforcing bar 100 is rotated to couple the threaded portion 120 to the threaded pipe 210, the coupler 200 should be fixed so that the coupler 200 is not rotated together with the reinforcing bar 100. However, There is a problem in that it is difficult to fix the coupler 200 if the outer surface of the cap 210 and the outer surface of the reinforcing cap 240 formed thereon are all curved. In order to solve such a problem, the reinforcement connecting coupler 200 according to the present invention has a shape in which the reinforcing bar 240 formed on the outer surface of the screw pipe 210 has a polygonal cross section, And can be formed into a hexagonal tube shape as shown in FIG. When the reinforcing bar 240 is formed in a hexagonal shape as described above, the operator can stably fix the reinforcing bar 240 using a wrench, so that the thread of the reinforcing bar 100 can be easily and firmly screwed .

Of course, the reinforcing bar 240 may be replaced with a square pipe, an octagonal pipe or the like as well as the pipe pipe shape shown in this embodiment.

When the outer diameter of the reinforcing bar 240 is larger than the outer diameter of the insertion pipe 230 and the reinforcing bars 100 are installed vertically, There is a possibility that a phenomenon in which the concrete is not completely filled with concrete may occur. Therefore, it is preferable that the maximum outer diameter of the reinforcing bar 240 is set equal to the outer diameter of the insertion tube 230.

7 shows a reaction force formed in the reinforcing coupler 200 when a pair of reinforcing bars 100 are connected.

When the reinforcing bar 100 is further rotated while the inclined portion 130 of the reinforcing bar 100 is in contact with the inner side surface of the inclined pipe 220 of the coupler 200, And is pushed to the inside of the screw pipe 210 finely. If the turning force applied to the reinforcing bar 100 is released after the reinforcing bar 100 is rotated so that the inclined portion 130 is strongly pressed on the inner surface of the inclined pipe 220, The reaction force is applied to the entire female thread 212 in the direction of the small arrow in Fig. 7 by the restoring elasticity of the coupler 100 and the coupler 200. [

The screw 120 and the female thread 212 are strongly pressed by the reaction force due to the restoring elasticity of the reinforcing bar 100 and the coupler 200 so that a very large force is required to rotate the reinforcing bar 100 in the unwinding direction That is, the advantage that the reinforcing bar 100 and the coupler 200 are combined very strongly can be obtained.

The reaction force may be larger as the inclination of the inclined portion 130 and the inclined tube 220 is smaller. However, if the inclination of the inclined portion 130 and the inclined tube 220 is too small, The inclination of the inclined portion 130 and the inclined tube 220 may be appropriately selected because there is a possibility of excessive insertion into the arc tube 210.

Further, an elastic sheet may be further provided on the inner surface of the inclined pipe 220 so that a reaction force for bringing the screw part 120 and the female thread 212 into close contact with each other may be generated more greatly. At this time, it is preferable that the elastic sheet is made of a metal or synthetic resin having a certain level of elasticity so as not to be torn or damaged even if it is strongly pressed between the inclined portion 130 and the inclined pipe 220.

8 is a cross-sectional view illustrating a process of coupling a pair of reinforcing bars 100 to a reinforcing bar coupling coupler 200 according to a second embodiment of the present invention.

6, the structural strength of the coupler 200 is reduced as much as the spaces between the two threaded portions 120 inserted into both sides of the threaded pipe 210 are left as empty spaces. As a result, It is preferable that the spacing space is filled with another material when a spacing space is generated between two threaded portions 120 of the inside of the space.

At this time, the material filled in the space between the two threaded portions 120 may be selected as the expanded foam F so as to obtain the effect of pressing the threaded portion 120 toward the female thread 212 side. Since the expansion foam F has a characteristic that the volume increases with the lapse of the injection time, when the expansion foam F is injected into the spacing space between the two screw portions 120, the expansion force F of the expanded foam F The two threaded portions 120 are strongly pressed against the female thread 212 and the coupling force between the reinforcing bar 100 and the coupler 200 is further increased.

In order to inject the expandable foam F into the spacing space between the pair of screw portions 120 after screwing the pair of screw portions 120 to the screw pipe 210 as described above, A foam injection hole 250 for injecting the expandable foam F into the middle part of the internal space of the screw pipe 210 (more specifically, a space separating between the two screw pipes 210) .

The size and the number of the foam injection holes 250 can be freely changed according to the user's choice, and thus a detailed description thereof will be omitted.

9 is a cross-sectional view illustrating a process of coupling a pair of reinforcing bars 100 to a reinforcing bar coupling coupler 200 according to a third embodiment of the present invention.

The entire male thread of the threaded portion 120 must be in close contact with the female thread 212 of the threaded pipe 210 so that the reinforcing bar 100 is very strongly connected to the coupler 200. However, There is a difficulty in manufacturing a screw thread so as to be in close contact with the female thread 212 of the fastener 210.

That is, in reality, some of the threaded threads of the threaded portion 120 do not come in close contact with the female threads 212 of the threaded pipe 210, causing a problem that the fastening force between the reinforced bar 100 and the coupler 200 is reduced .

The reinforcing bar coupling coupler 200 according to the present invention is constructed such that the side walls of the screw pipe 210 are provided at both sides of the internal space of the screw pipe 210 ) Are combined with each other) may be formed in the adhesive injection hole 260 for injecting the adhesive. At this time, the adhesive injection hole 260 is preferably formed such that the outlet is branched as shown in the present embodiment so that the adhesive can be uniformly supplied to the pair of screw portions 120 by one injection of the adhesive.

When the adhesive injection hole 260 is formed on the sidewall of the screw pipe 210, the screw portion 120 is screwed into the screw pipe 210 and then the adhesive is injected through the adhesive injection hole 260 The male thread of the threaded portion 120 and the female thread 212 of the threaded tube 210 can be more securely fixed and the coupling force between the reinforcing bar 100 and the coupler 200 can be maximized.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the scope of the present invention is not limited to the disclosed exemplary embodiments. It will also be appreciated that many modifications and variations will be apparent to those skilled in the art without departing from the scope of the invention.

100: Rebar 110: Main body
112: rib 114: node
120: screw portion 130:
200: coupler 210: screw cap
212: female thread 220: inclined tube
230: insertion tube 240: reinforced flesh
250: Foam injection hole 260: Adhesive injection hole

Claims (9)

A main body 110 formed on an outer surface of the main body 110 and having a rib 112 and a nose 114 formed thereon and a main body 110 formed at an end in the longitudinal direction of the main body 110, And a pair of reinforcing bars 100 which are formed at the ends of the inclined portions 130 and each have a threaded portion 120 formed on the outer side of the inclined portion 130,
A thread tube 210 having a hollow tube shape for inserting the threaded portion 120 therein and having a female thread 212 to which a thread of the threaded portion 120 is screwed;
And a pair of inclined portions which are provided at both ends in the longitudinal direction of the screw pipe 210 and extend obliquely in the direction of increasing the inner diameter of the screw pipe 210 to be distant from the screw pipe 210, A tube 220;
A pair of insertion tubes (230) formed in the shape of a hollow tube having an inner diameter larger than that of the screw pipe (210) for inserting the main body (110) and provided at the ends of the pair of slant pipes (220); And
A reinforcement body (240) formed to surround the interruption outer surface of the screw pipe (210); ≪ / RTI >
The maximum outer diameter of the reinforcing bar 240 is the same as the outer diameter of the insertion tube 230,
A foam injection hole 250 for injecting the expanded foam F into the spacing space between the screw portions 120 of the pair of reinforcing bars 100 in the internal space of the screw pipe 210 is formed in the screw pipe 210 Respectively,
An outlet through which the adhesive is discharged for simultaneously injecting an adhesive to both sides of the female thread 212 to which the threaded portions 120 of the pair of reinforcing bars 100 are threaded is inserted into the threaded tube 210 210 are formed on both sides of the adhesive injection hole 260,
And an elastic sheet attached to an inner surface of the inclined pipe 220, wherein the elastic sheet is made of metal or synthetic resin,
(200).
delete delete delete delete delete A reinforcing bar connecting method using the reinforcing connecting coupler (200) according to claim 1,
Providing the reinforcing coupler (200);
Providing the pair of reinforcing bars (100);
The reinforcing bars 100 are inserted into the insertion tube 230 and the screw portions 120 are inserted into the insertion holes 230 until the inclined portions 130 of the reinforcing bars 100 are pressed on the inner surface of the inclined pipe 220. [ Threaded to the threaded tube (210); And
After the screw 120 of the reinforcing bar 100 is screwed into the screw 210, the expansion foam F is injected into the spacing space of the screw 210 through the foam injection hole 250, Injecting an adhesive through the adhesive injection hole 260;
And the reinforcing bars are connected to each other. delete delete

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